Swimming garments

ABSTRACT

A swimming garment formed from a stretchable elasticated fabric, wherein the garment comprises at least one sensitivity zone in which the fabric thickness is less than the fabric thickness of the region of the garment surrounding the sensitivity zone. The sensitivity zones can give a heightened sensation in a specific position of the body, for example in the abdominals. The thinner fabric zone increases the sensation of water flow/temperature which in-turn leads to a proprioceptive response to activate the muscle group beneath the zone.

CROSS REFERENCE TO RELATED APPLICATION

This is a continuation of U.S. patent application Ser. No. 15/504,623, a371 application of PCT/GB2015/052367 filed Aug. 14, 2015, both hereinincorporated by reference.

TECHNICAL FIELD

The present invention relates generally to swimming garments, such asswimsuits, triathlon suits, waterpolo suits, wetsuits and other garmentsintended to be worn by a person when swimming. A preferred use is forswimsuits intended for competition swimmers.

BACKGROUND

Swimmers typically wear tight fitting garments which help decreaseair/water resistance, which is especially important in competitiveevents. If maximum performance is to be achieved then it is also veryimportant the swimmer maintains a correct body position when executing aswimming stroke in the water. This requires coordinated firing ofspecific muscle groups depending on the stroke. Such body position,including the coordinated firing of muscle groups, is generally onlylearned and maintained through hours of training in a pool.

Swimming garments have been proposed that support a swimmer's core tohelp them maintain good body position in the water. For example,EP1935266 (Speedo) describes a swimsuit having increased support for aswimmer's core, provided by a double layer of fabric in a torso regionof the suit that surrounds the swimmers abdomen and lumbar region.

SUMMARY OF THE INVENTION

It is a general aim of embodiments of the present invention to offer aswimming garment that better assists the swimmer to maintain a good bodyposition, at least in part by encouraging activation of relevant musclegroups. In general terms, the approach proposed in embodiments of theinvention is to provide a thinner fabric zone (‘thinner’ compared withadjacent regions of the garment) within the garment (for example asingle layer fabric zone within a double fabric layer region of agarment) that, when the garment is worn, overlie muscle groups that itis wished to target. The thinner fabric zones result in a heightenedsensation in the specific position of the body they register with, whichin-turn leads to a proprioceptive response that encourages activation ofthe muscle group under the thinner fabric zone.

The invention provides a swimming garment formed from a stretchableelasticated fabric, wherein the garment comprises at least onesensitivity zone in which the fabric thickness is less than the fabricthickness of the region of the garment surrounding the sensitivity zone.

Typically, the thicker fabric region within which the sensitivity zoneis formed will surround the sensitivity zone on all sides.

Some embodiments may include a plurality of sensitivity zones, whereinthe fabric thickness in each sensitivity zone is less than the fabricthickness of the surrounding region of the garment.

In some embodiments, a region of the garment containing one or moresensitivity zones is formed from at least two layers of fabric and eachsensitivity zone is formed with one (or more) fewer layers of fabricthan the region of the garment surrounding it. For example, a singlelayer sensitivity zone may be formed in a double layer region of thegarment.

In some embodiments, one or more of the sensitivity zones are formed insingle layer fabric regions of the garment by a localised thinning ofthe fabric. This thinning may be achieved for example during initialmanufacture of the fabric (e.g. by circular knitting) or by apost-manufacture processing step (e.g. laser etching).

In embodiments of the invention, sensitivity regions can be formed inany of a number of appropriate locations, determined by the muscle ormuscle groups that it is desired to act on. For example, one or moresensitivity zones can be formed in a region of the garment that, whenthe garment is worn, covers the abdomen of the wearer. These zones, may,for example, extend to overlie the upper abdominals and/or the lowerabdominals.

Some embodiments include a pair of sensitivity zones in a region of thegarment that covers the abdomen, the zones being spaced apart onopposite sides of the mid-line of the garment.

Other possible locations for the sensitivity zones, either in additionto or as an alternative to the abdomen, include over the glutes, whichmay be especially beneficial for male swimmers in order to maintainalignment of the legs during kicking, and on the inside of the thigh,which may be especially beneficial when swimming breaststroke.

The sensitivity zones can give a heightened sensation in a specificposition of the body, for example in the abdominals. The thinner fabriczone increases the sensation of water flow/temperature which in-turnleads to a proprioceptive response to activate the muscle group beneaththe zone. Where this is the abdominals, for example, it helps tomaintain a good relative anterior positioning between pelvis andribcage, leading to a more neutral pelvis and lumber spine position.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a front perspective view of a swimsuit in accordance withan embodiment of the present invention;

FIG. 2 shows a rear perspective view of the swimsuit of FIG. 1 ;

FIG. 3 shows a front perspective view of another swimsuit in accordancewith an embodiment of the present invention;

FIG. 4 shows a rear perspective view of the swimsuit of FIG. 3 ; and

FIG. 5 shows, on an enlarged scale, a feature that is seen on the frontof the swimsuits of FIGS. 1 and 3 .

DETAILED DESCRIPTION

The invention will now be further described with reference to thefollowing non-limiting Figures and Examples. Other embodiments of theinvention will occur to those skilled in the art in the light of these.

Referring to FIGS. 1 and 2 , a swimsuit in accordance with a firstexemplary embodiment of the invention is described. The swimsuit is afemale suit intended for competitive swimming and is formed from astretchable elasticated fabric of a type known for use in competitionswimsuits.

In this example, the swimsuit is of a ‘closed back kneeskin’ type. Assuch, the suit includes left and right leg portions that extend down tothe swimmer's knees and cover their thighs, a torso portion that coversthe abdomen and the back (extending up to the bottom of the scapula) anda chest portion that covers the swimmer's chest. The suit has shoulderstraps that extend from the top of the chest portion, at spaced apartpoints on each shoulder, over the shoulder to a central point at the topof the back portion, between the scapula. Arm openings are defined bythe top edges of the chest and back portions in combination with theshoulder strap.

The swimsuit includes front and rear tension bands, which offer greatermodulus (or resistance to stretch) along their length than the modulusof the basic stretchable elasticated fabric fabric of the suit. In thisexample, these tension bands are formed by bonded seams in the suit thatjoin adjacent panels of the stretchable elasticated fabric fabric. Theseams are taped on the inside of the suit.

More specifically, the rear tension bands are provided by crossed seamlines on the back of the suit that, when the suit is worn, follow theposterior oblique myofascial lines: the IT Band (1) into Glutes (2) onone side, across the Sacrum (3) to the opposite Latissimus dorsi (4) upinto the shoulder on that opposite side. The two seam lines cross oneanother over the sacrum.

The front tension bands are provided by seam lines that, when viewedfrom the front, have a generally hour glass appearance to follow, whenthe suit is worn, skeletal landmarks and myofacial lines (muscle chains)to provide stability to the core region (upper and lower abdominals).These front seam lines connect to the rear seam lines at the greatertrochanter (5), this being the point of rotation of the upper leg/thigh.The seam lines then run over the front of the pelvis at the anteriorsuperior iliac spine (6) and then to the rib cage at the 5th/6th rib(7). The seam then follows the line of the pectorialis major (8) up tothe armhole of the suit.

In this example, in accordance with an embodiment of the invention, twofeatures (referred to in the following as ‘sensitivity zones’) areformed on the front of the suit over the abdomen. In general terms,these sensitivity zones are areas in the suit that have a thinner fabriccovering than surrounding areas of the suit to give a heightenedsensation in a very specific position of the body, in this example theupper abdominals (9) and lower abdominals (10).

As seen in FIGS. 1 and 5 , in this example there are two chevron-shapedsensitivity zones spaced apart one to either side of the midline of thefront of the suit, with each pro hole extending from an upper region (9)of the abdominals to a lower region (10) of the abdominals.

In this example, the abdominal region of the suit is formed from two (ormore) layers of fabric (e.g. two stretchable elasticated fabric fabriclayers) and the sensitivity zones are created to provide the desiredheightened sensation by removing one layer of fabric to increase thesensation of water flow/temperature which in-turn leads to aproprioceptive response in order to activate this muscle group andmaintain a good relative anterior positioning between pelvis andribcage. This leads to a more neutral pelvis and lumber spine position.

In other examples, to avoid using a double layer fabric region, thethinner areas of fabric to form the sensitivity zones can be produced byprocessing a fabric panel to produce localised thinning. For example,laser-etching of the surface layer of a fabric can create a localisedthinner area within the fabric panel.

Alternatively, the fabric could be formed in the first instance withregions of differing thickness in order to provide the sensitivityzones. For example, a circular knitting process could be used to producea 3D fabric panel (i.e. a panel with variation in thickness) or even asemi-complete suit. This production technique can produce a garmentpanel with thicker and thinner areas by design rather than using asecondary process to thin areas of the fabric.

The seam lines and sensitivity zones in the front of the suit are togive proprioceptive feedback to the lower abdominal region to initiate amore posterior pelvic tilt to help maintain a more neutral lumbar spineposition (“flat lower back”) and avoid excessive anterior pelvic tiltwhich can cause lumbar lordosis (extension). The cross seam lines on theback of the suit aim to connect the Gluteals and posterior chain muscleswith the muscles on the back of the opposite shoulder, following thelines of the posterior oblique myofascial lines (IT Band into Glutes onone side, across the sacrum to the opposite Latissimus dorsi up into theshoulder on that side). This helps with proprioceptive feedback to firethe gluteal muscles to help maintain pelvic position (more posteriorlytilted into neutral and neutral lumbar spine) and also maintain goodscapula position (slightly posteriorly rotated, retracted and depressedflat against the posterior chest wall) while initiating the scapulastabilising muscles (Serratus anterior, lower fibres trapezius mainly).

Thus it can be seen that in this example, the front and rearseams/sensitivity zones play slightly different roles. The seams in thefront of the suit give purely proprioceptive feedback to the abdominalregion to maintain a good pelvic position and a flat lower back. Thecrossed seams in the rear follow the posterior oblique myofascial linesto give proprioceptive feedback to connect this group of muscles. Thisthen helps the glutes to fire and in turn maintain the good pelvicposition (as with the front seams). By encouraging firing of the glutesin time with the opposite shoulder, the crossed seams on the back canalso help with dynamic co-ordination and timing between upper and lowerbody (arms and legs).

FIGS. 3 and 4 , show a second exemplary swimsuit in accordance with anembodiment of the invention. The suit of this example is very similar tothe suit of FIGS. 1 and 2 , save that in this example, the swimsuit isof an ‘open back kneeskin’ type. As such, it has an open back region(i.e. a region free of fabric) above the top of the glutes. The rear ofthe shoulder straps has a cross-like form with strap portions extendinglaterally and downwardly from the centre of the back between the scapulato join with the side of the chest portion of the suit. Consequently,the seams forming the rear tension bands terminate at the top of theglutes where they meet the back opening.

In other respects the example of FIGS. 3 and 4 is identical to theexample of FIGS. 1 and 2 , including the sensitivity zones on theabdomen and similar proprioceptive effects are obtained, although inthis suit there is not the same connection between the sacrum and thelatimmus dorsi. There is, however, still a benefit in connecting the ITbands to the sacro-illiac joints.

The skilled person will appreciate that the swimsuits illustrated in theFigures and described above are examples embodying inventive conceptsdescribed herein and that many and various modifications can be madewithout departing from the invention. For example, the same concepts canbe applied to other types of swimming garment, such as triathlon suits,waterpolo suits and wetsuits for example. It is also possible to include‘sensitivity zones’ and/or tension bands in alternative or additionalpositions on the garment to provide different or additionalproprioceptive effects.

1. A swimming garment formed from a stretchable elastic fabric, whereinthe garment comprises a pair of sensitivity zones in which a thicknessof the fabric is less than a thickness of the fabric of a surroundingregion of the garment which completely surrounds and directly bordersthe pair of sensitivity zones, wherein the each sensitivity zone isconfigured to extend to overlie upper abdominals and lower abdominals ofa wearer, and the entirety of each sensitivity zone is formed on a frontof the swimming garment covering a front of the wearer; and wherein saidpair of sensitivity zones are spaced apart on opposite sides of amid-line of the garment.
 2. A swimming garment according to claim 1,wherein each sensitivity zone is formed from at least two layers offabric.
 3. A swimming garment according to claim 2, wherein eachsensitivity zone is formed with one or more fewer layers of fabric thanthe region of the garment surrounding the sensitivity zones.
 4. Aswimming garment according to claim 3, wherein the region surroundingthe sensitivity zones is formed from a double layer of fabric and eachsensitivity zone has a single layer of fabric.
 5. A swimming garmentaccording claim 1 wherein, in use, the stretchable elastic fabric coversat least part of the wearer's thighs, hips and glutes, the garmentincluding at least two tension bands that have a higher modulus ofelasticity than adjacent regions of the stretchable elastic fabric sothat, in use, the tension bands offer greater resistance to stretch thanthe adjacent regions; wherein a first one of said tension bands followsa path that extends along an outside of a left thigh region of thegarment to a left hip region of the garment and inwardly from the lefthip region across a left upper glute region of the garment towards amid-line of the garment; and a second one of said tension bands followsa path that extends along an outside of a right thigh region of thegarment to a right hip region of the garment and inwardly from the righthip region across a right upper glute region of the garment towards themid-line of the garment.
 6. The swimming garment according to claim 5,wherein: the path of the first tension band extends from the left upperglute region of the suit across a back of the suit and to a right rearshoulder region of the suit; and the path of the second tension bandextends from the right upper glute region of the suit across the back ofthe suit and to a left rear shoulder region of the garment; wherein thefirst and second tension bands cross one another at the mid-line of thesuit in a lower back region of the suit.
 7. The swimming garmentaccording to claim 6, wherein the paths of the tension bands are suchthat when the garment is worn the first and second tension bands areconfigured to generally follow posterior oblique myofascial lines of thewearer.
 8. The swimming garment according to claim 7, wherein thetension bands comprise seams in the garment.
 9. The swimming garmentaccording to claim 8, wherein the seams join separate panels of thestretchable elasticated fabric from which the garment is formed.
 10. Theswimming garment according to claim 9, wherein the seams are stitchedseams.
 11. The swimming garment according to claim 9, wherein the seamsare bonded seams.
 12. The swimming garment according to claim 1,wherein, in use, the stretchable elastic fabric is also configured tocover at least part of the wearer's abdomen, chest and back.